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Skeletal system and tissues

Skeletal system and tissues. Long Bone Anatomy Long Bone as a model bone. Diaphysis: Mostly compact bone medullary cavity = hollow space saves weight without compromising strength Cavity contains yellow marrow Yellow Marrow = mostly adipose tissue. Epiphyses:

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Skeletal system and tissues

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  1. Skeletal system and tissues

  2. Long Bone Anatomy Long Bone as a model bone

  3. Diaphysis: • Mostly compact bone • medullary cavity = hollow space • saves weight without compromising strength • Cavity contains yellow marrow • Yellow Marrow = mostly adipose tissue

  4. Epiphyses: • Mostly spongy bone with “shell” of compact bone • save weight without compromising needed strength • May contain yellow or red marrow, • Red Marrow = blood cell formation • Epiphyseal Plates: site of longitudinal growth bone growth • Articular cartilage: • Hyaline cartilage at joint surface

  5. w/ trabeculae

  6. Trabeculae of compact bone are oriented along the paths of structural stress placed on the bone so that bone material is only present where it is most needed. • These trabeculae can be remodelled if stresses change

  7. Locations of red marrow in adultred marrow = site of blood cell production Hematocytoblasts (hematopoietic stem cells) Myeloid Stem Cells Lymphoid Stem Cells • Redblood cells • From erythroblasts • Platelets • From megakaryoblast • Granulocytes (WBC) • from myeloblasts • Monocytes (WBC) • From monoblasts • Lymphocytes (WBC) • From lymphoblasts

  8. Periosteum:

  9. Figure 6.5

  10. Periosteum: Structure: Membrane surrounding outer surface of bone Except articular cartilage Outer layer of dense irregular CT Rich in collagen Inner cellular layer Includes osteoblasts, osteoclasts, & osteoprogenitor (i.e., stem) cells Function: Connects tendons and ligaments to bone Sharpeys/perforating fibers Site of bone formation/remodelling Contains blood vessels and nerves that serve the bone. Site of appositional growth

  11. Endosteum • lines the inner surfaces of bone • Contains osteoprogenitor (i.e., stem) cells, osteoblasts and osteoclasts • Site of bone formation/remodelling

  12. Structure of non-long bones • Periosteum • Endosteum • Spongy bone with trabeculae • and spaces all as in long • bones • No medullary cavity

  13. BONE TISSUE • CELLS • Osteoblasts: create matrix • Osteocyctes: maintain matrix, feedback on stress experienced • Osteoclasts: destroy matrix • MATRIX • Calcium salts (calcium phosphate/hydroxyapitite) • Collagen fibers

  14. Compact Bone Mid-power High power (close up)

  15. Osteon: • repeating structural units of compact bone • oriented the length of long bones (our primary model) osteon

  16. Figure 6.8

  17. Lamellae= Layers of matrix (collagen + calcium phosphate/hydroxyapitite) • too dense for oxygen, nutrients or wastes to diffuse through(from a practical stand point)

  18. Non-osteonic lamellae • Circumferential—around the outside of the entire bone • Interstitial—remnant lamellae found between existing, complete osteons

  19. Central Canal: • passageway for blood vessels and nerves

  20. Lacunae: • Spaces/cavities containing osteocytes

  21. Canaliculi: • Passageways through matrix • interconnect lacunae and central canal • Filled with extensions of osteocytes that are joined by gap junctions • Transport of oxgyen, nutrients, and wastes

  22. Perforating canals: • Passageways that interconnect central canals • filled with blood vessels and nerves

  23. Spongy (Cancellous) Bone • No osteons • Trabeculae consisting of • Parallel lamallae • Cells obtain nutrients from vessels in contact with surface of trabeculae

  24. BONE REMODELLING • The process of constant creation and destruction of bone by osteoblasts and osteoclasts • Bone Remodelling Continually: • reshapes bones in response to the specific stresses placed on them • Gravity • Muscular contraction • Adjust balance of bone creation/destruction to regulate Ca+ and PO4 levels • Also part of bone development (e.g., creation of processes) and repair • Bone is remodelled on its periosteal and endosteal surfaces • On average 20% of our skeleton is remodelled each year (but rates vary widely in different parts of skeleton)

  25. BALANCE BETWEEN OSTEOBLAST AND OSTEOCLAST ACTIVITY • Osteoblast activity > osteoclast activity • Net increase in bone mass/amount of bone • Net uptake of calcium and phosphate from blood • Blood Ca and PO4 decreases • Osteoblast activity < osteoclast activity • Net reduction in bone mass/amount of bone • Net release of calcium and phosphate from bone into blood • Blood Ca+ and PO4 increases

  26. HORMONES ASSOCIATED WITH THE SKELETAL SYSTEM Calcitonin (from Thyroid) • Inhibits osteoclastacitivity • Encourages bone deposition/creation • Reduces blood Ca+ Parathyroid hormone (from parathyroid gland) • Stimulates osteoclast activity • Encourages bone destruction/Ca+ release • Increases blood Ca+

  27. Table 6.1

  28. Anatomical Basis of Bone Disorders • Achondroplastic Dwarfism: • Short limbs due to failure of chondrocytes in epipheseal growth zone to divide and enlarge • Results in early closing of plates and thus short limbs • Rickets (a.k.a. osteomalacia) • Lack of vitamin D (and concomitant lack of calcium absorbtion by digestive tract) leads to • Poorly calcified matrix so bones are “soft and flexible”, does make easier to break • Collagen component largely unaffected • Osteoporosis • Loss of bone mass and reduction of microstructure particularly in spongy bone • Makes bones prone to breakage (esp, wrist, hip, and spine), compression (esp. in vert bodies causing height reduction and abnormal curvatures) • Femur fractures in the ederly: • did the fall break the bone or did the bone break cause the fall?

  29. Page 167_01

  30. synovial joints

  31. Fig. 7.34 Synovial Joints • Freely movable • diarthrotic • Articulating bones are separated by space • the joint cavity • Parts Include: • Articular/joint capsule • Joint cavity • Synovial fluid • Articular cartilage • Ligaments • Blood vessels • nerves

  32. Fig. 7.34 Joint Capsule: An extension of the periosteum that connects the articulating bones while allowing movement Outer Fibrous Layer • Dense irregular (collagenous) CT • Provides strength • Includes localized thickenings—intrinsic ligaments Inner Synovial membrane • Areolar CT • Covers internal surfaces except articular cartilage • Secretes synovial fluid (cellular products and fluid from blood)

  33. Fig. 7.34 Joint Cavity and Synovial Fluid • Joint cavity = space within capsule and between bones • Filled with synovial fluid Functions of synovial fluid • Lubricates • Nourishes cartilage • Helps distribute stress

  34. Fig. 7.34 Articular Cartilage • Hyaline cartilage • Lacks perichondrium • Use of “soft” cartilage at articulating surface reduces friction, absorbs shock, and protects the ends of the bones • Avascular • Receives nutrients by synovial fluid “washing” in and out of the cartilage during joint movements, compression and re-expansion of pressure

  35. Fig. 7.34 Other Synovial Joint structures • Extrinsic Ligaments: • Dense collagenous CT structures that are separate from the joint capsule • hold bones together and possibly limit movement • Nerves • Detect pain • Proprioception—determining joint position and tension • Blood vessels • Supply cells of joint and provide some material for synovial fluid • Articular Discs • Pieces of fibrocartilage that improve fit of articularing surface thus distributing stress • Influence degree of movement at joints

  36. Fig. 7.34 Other Synovial Joint structures • Bursa: • Fibrous “sacs” lined with synovial membrane and filled with synovial fluid • Reduce friction of tendons that run past/against boney angles • Can be extensions of or separate from joint capsule • Found in most major joints • Tendon Sheath • Elongated bursa around tendons • Fat pads • Provide padding and can act as space filler

  37. Figure 9.5

  38. Figure 9.15

  39. Figure 9.5

  40. Figure 9.5

  41. Fig. 7.34 Arthritis: anatomical distinctions • Arthritis: inflammatory and/or degenerative disorders of joints that lead to pain and loss of joint use • Osteoarthritis • Most common • Caused by Wear and tear • Articular cartilage is worn down and bone contacts bone • Causes pain, inflammation, reduced mobility, and dysfunction • Rheumatoid Arthritis • Autoimmune disorder/Immune system attacks the synovial membrane • Tissue destruction and alteration causing joint deformation, pain, inflammation, reduced mobility and dysfunction

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